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Structure of polymers on the basis of chlorinated styrene and sodium disulphide
JoumalofMolecular
Sfructure, 115(1984)453-456 ElsevlerSc~encePubllshersB.V.,Amsterdam-Printedin The Netherlands
STRUCTURE SODIUM
OF POLYMERS
ON THE
BASIS
OF CHLORINATED
453
STYRENE
AND
DISULFHIDE
D.TODOROVA,Iv.MUDENOV,M.MARCOV Higher
Institute
of Chemical
Technology-ECIO,Bougas
(Bulgaria)
ABSTRACT
A polycondensation of a mixture of halo en derivatives of styrene obtained at direct chlorination of s f yrene and cantaining -80% ~,&iichlorethylbenzene end sodium disulphide was studied-POlysulphide liquid low molecular polymers were obtained.meens of molecular spectroscopy,fractionation and the elemental analysis the structure of the synthesized productswasstudied.It was the essential unit is the styrenedisulphide one-The proved,that role of monofunctional monomer and of nonchlorinated styrene in reaction conditions was indicated. INTRODUCTION Due
to
canize
their
at room
in mat In this
high
chemical
resistance
temperatm,the
liquid
and
the
polysulphide
ability
to vul-
polymers
are
demand among the polymers for special purpose(ref.1.). paper the results from structure investigation of liquid
polysulphide polymer of chlorinated styrene and sodium disulphide are given-Direct chlorination of s-cgrene,product of SC"Neftochim"-Bourgas rine-The
was
obtained
carried products
condensation
with
Polysulphide ned.
polymers
RESULTS
AND
out at
sodium
are
273-283K
introduced
disulphide
with
liquid
using viscous
temperature in a process a knoun
witn
chlo-
of poly-
method(ref.2).
consistence
were
obtai-
DISCCSSION
By Comparison of IR spectra of chlorinated product with ethalone one of d,pdichlorethilbenzene it was established that together with the bands of the corresponding compounds there are such at:815
and
730 cm-l(Ar-Cl),related
to chlorine
in the benzcle
nucleous;2976(vCH3) and 1380(6CH3) which show that a process of chlorination has occurred and a dchlorethylbenzene is obtained; -I ,which show that there is unchanged styrene in 99C,910,760 cm the investigated
substance.
0022-2860/84/$03.00 0 1984ElsevlerSclencePublisher; B.V.
454
Data from IR spectroscopy are confirmed by those of UV spectra scopy.Together with the abaorbtioa at 232 nm,corresponding to Jgdichlorethylbenoene there is absorbtion in the range of 250270 pm with a maximum at 254 and 264 nm,corresponding to the Achlorefhylbenzene,chlorination in the benzene nucleous products and unchanged styrene.The existence of the mixture of these products is proved by comparingthe spectrum correlation and the thbrmostabilitg with those of a modelmixture.It yas found that the content 04 ~,~dichlorethylbenzene,~chlorethylbenzene and sty rene in the mixture is respectively 75-8096,5-W and S-9%. In order to study the ingredients of the mixtures in the poiymer products,precipitation of the latter with methyl alcohol out of chloroform solution was carried out-On comparison of IR spectra Of the feed and precipitation product it was established that after precipitation the bands at 990, 9IO and 780 cm-' dissappear (Fig.I),which shows that there is styrene in the polymer product when it is in the form of a mixture.
0 f-
b
I
3200
Pig.1. IR nated
2800
spectra
stryrene
and
1500
1 1100
700
600 LOO 9,cm-l
of polysulphide polymer,obtained from chloritistiphide before (a) and after (b)
sodium
purifying. Its quanfity (2-3s) was determined by differential IR spectroscopy method using a variable thickness cell. Since the main process is polycondensation of d,Bdichlorethylbenzene and sodium disulphide the main structure uhit in polymer is expected to be stgrenedisulphide one.5e results from IR and XKR spectra presented in Table I confirm the above.
455
TABLE I Spectmun data for polymer andsodium disulphide
on the basis of chlorinated
styrene
Data from Grnun
r
IR. @
__
cm2
'H iWR.uum _...^
I600-I400 3100-3000 1405-1250 1320.f240 287O;X380
CH -s CH& CH3
7.9 2.8-3,0 3.2 I;2
15c
NNR.iJum -*-
144-138 130-127 44 51 21
More thorough investigation of the composition and structure of polysulphide polymer is done after fractionation,Spectrum relations and molecular weight,viscosity and sulphur content were studied.It was established that with a decrease of molecular weight from 4300 to 970 viscosity decreases from 4,3 to 3,4 and sulphm content from 35 to 3C$.At similar molecular weight chages in other polysulphide pof,gmers the change in sulphur content is lower than 2,2$ (ref.3).Taking into consideraL' l&on the conditions of synthesis which are suitable for disulphide-disulphide exchange and styrene disposition towards pol_ynerisation,it can be suppossed that these--change= are due to the -unchanged stycene, vrhich is present in the feed,monomer mixture.In order to prove that,polycondensation was carried out after preliminary purification of the feed monomer from the unchanged styrene by distillation-In the fractions obtained at analogical molecular weights the sulphur content is by 2,0% higher than that of the products obtained withour preliminary purification of styrene.This shows that together with polycondensation a process of incorporation of the styrene units into disulphlde bonds takes place according to the scheme: RI-S-S-R2
+ CH2=FH AL,
RI-~--CR2_C~_~_R2
(1)
Ar
This process explaines the decrease of sulphur contert in these products and i7; is an indication for a dicrease of the class of strlphiditg
of the polymers.
AS an admixture in the feed monomer in the benzene nucleous
nated product chlorine
in
the polymers
after
mixture there is a chloritoo-The presence of I,.%
precipitation
is an indication
466 that
it
part
takes
at the expense Since
B-Cl
in
the polycondensation
of chlorine
bond
is much
lower
then
Ar-Cl
uncmgedduringthe reaction. The study of the end groups of polymer of OUT investigation lymers
was
I,I%.m
differential
with
in the aliphatic
too.The thorough
content
sodium. disulphide
part
the
of the
latter
molecules
of end
investigation
compound.
remains was
an
object
-OHgroups in the po-
of all
fractions
using
IE spectxoscopy
method it was established that with content a decrease of the molecular weigh t of the products,the The methyl groups duly result of net&id. groups increases-Fig?2.
a l-
b / C
32m
‘6300
1700
13X 3, cnr'
Ffg.2.Dffferentfal IR spectB,obtaLned by equilibrate frequencies of -S&E? -CH(Ac)-Suuits in a fraction with molecular wei 4300 wi& some in fractionss with inolecular weight of I890 135O(b),970(c). from
the part%cipation
In our prevZou8 tor
work
of nolecWweigtrt
sma.ller degree
than
of dchlorethylbenzene it
was proved
that
producingzethyl
end
dchlorethglbenzene.Re~~les
of the latter groups,uuder certain conditions polystiphLde pomer can be cured,which makes usedas
in polgcondensation-
styrene
is also
groaps
a regula-
though
of the
to a
presence
the tested liquid it possible to be
ahernetizingxtaterial.
REFEKEXWES I E.Dachselt, T!hioplaste,VEB Deutscher Verlag fur GruudstOffindustrie,Leipzig,I97, 164~ 2 E.M-Fettes snd I.S.Iorzak, a nd,and Eng,Chem-, 42 (I960) 22Ii'2221. leva Izv.Akad.Hauk SSSR,Ser.Ri.m. (IJachr.Acad. 3 A.Ts.vrin Wiss.Od&&%~, 6 fI969) 1300-I308.
Sfructure, 115(1984)453-456 ElsevlerSc~encePubllshersB.V.,Amsterdam-Printedin The Netherlands
STRUCTURE SODIUM
OF POLYMERS
ON THE
BASIS
OF CHLORINATED
453
STYRENE
AND
DISULFHIDE
D.TODOROVA,Iv.MUDENOV,M.MARCOV Higher
Institute
of Chemical
Technology-ECIO,Bougas
(Bulgaria)
ABSTRACT
A polycondensation of a mixture of halo en derivatives of styrene obtained at direct chlorination of s f yrene and cantaining -80% ~,&iichlorethylbenzene end sodium disulphide was studied-POlysulphide liquid low molecular polymers were obtained.meens of molecular spectroscopy,fractionation and the elemental analysis the structure of the synthesized productswasstudied.It was the essential unit is the styrenedisulphide one-The proved,that role of monofunctional monomer and of nonchlorinated styrene in reaction conditions was indicated. INTRODUCTION Due
to
canize
their
at room
in mat In this
high
chemical
resistance
temperatm,the
liquid
and
the
polysulphide
ability
to vul-
polymers
are
demand among the polymers for special purpose(ref.1.). paper the results from structure investigation of liquid
polysulphide polymer of chlorinated styrene and sodium disulphide are given-Direct chlorination of s-cgrene,product of SC"Neftochim"-Bourgas rine-The
was
obtained
carried products
condensation
with
Polysulphide ned.
polymers
RESULTS
AND
out at
sodium
are
273-283K
introduced
disulphide
with
liquid
using viscous
temperature in a process a knoun
witn
chlo-
of poly-
method(ref.2).
consistence
were
obtai-
DISCCSSION
By Comparison of IR spectra of chlorinated product with ethalone one of d,pdichlorethilbenzene it was established that together with the bands of the corresponding compounds there are such at:815
and
730 cm-l(Ar-Cl),related
to chlorine
in the benzcle
nucleous;2976(vCH3) and 1380(6CH3) which show that a process of chlorination has occurred and a dchlorethylbenzene is obtained; -I ,which show that there is unchanged styrene in 99C,910,760 cm the investigated
substance.
0022-2860/84/$03.00 0 1984ElsevlerSclencePublisher; B.V.
454
Data from IR spectroscopy are confirmed by those of UV spectra scopy.Together with the abaorbtioa at 232 nm,corresponding to Jgdichlorethylbenoene there is absorbtion in the range of 250270 pm with a maximum at 254 and 264 nm,corresponding to the Achlorefhylbenzene,chlorination in the benzene nucleous products and unchanged styrene.The existence of the mixture of these products is proved by comparingthe spectrum correlation and the thbrmostabilitg with those of a modelmixture.It yas found that the content 04 ~,~dichlorethylbenzene,~chlorethylbenzene and sty rene in the mixture is respectively 75-8096,5-W and S-9%. In order to study the ingredients of the mixtures in the poiymer products,precipitation of the latter with methyl alcohol out of chloroform solution was carried out-On comparison of IR spectra Of the feed and precipitation product it was established that after precipitation the bands at 990, 9IO and 780 cm-' dissappear (Fig.I),which shows that there is styrene in the polymer product when it is in the form of a mixture.
0 f-
b
I
3200
Pig.1. IR nated
2800
spectra
stryrene
and
1500
1 1100
700
600 LOO 9,cm-l
of polysulphide polymer,obtained from chloritistiphide before (a) and after (b)
sodium
purifying. Its quanfity (2-3s) was determined by differential IR spectroscopy method using a variable thickness cell. Since the main process is polycondensation of d,Bdichlorethylbenzene and sodium disulphide the main structure uhit in polymer is expected to be stgrenedisulphide one.5e results from IR and XKR spectra presented in Table I confirm the above.
455
TABLE I Spectmun data for polymer andsodium disulphide
on the basis of chlorinated
styrene
Data from Grnun
r
IR. @
__
cm2
'H iWR.uum _...^
I600-I400 3100-3000 1405-1250 1320.f240 287O;X380
CH -s CH& CH3
7.9 2.8-3,0 3.2 I;2
15c
NNR.iJum -*-
144-138 130-127 44 51 21
More thorough investigation of the composition and structure of polysulphide polymer is done after fractionation,Spectrum relations and molecular weight,viscosity and sulphur content were studied.It was established that with a decrease of molecular weight from 4300 to 970 viscosity decreases from 4,3 to 3,4 and sulphm content from 35 to 3C$.At similar molecular weight chages in other polysulphide pof,gmers the change in sulphur content is lower than 2,2$ (ref.3).Taking into consideraL' l&on the conditions of synthesis which are suitable for disulphide-disulphide exchange and styrene disposition towards pol_ynerisation,it can be suppossed that these--change= are due to the -unchanged stycene, vrhich is present in the feed,monomer mixture.In order to prove that,polycondensation was carried out after preliminary purification of the feed monomer from the unchanged styrene by distillation-In the fractions obtained at analogical molecular weights the sulphur content is by 2,0% higher than that of the products obtained withour preliminary purification of styrene.This shows that together with polycondensation a process of incorporation of the styrene units into disulphlde bonds takes place according to the scheme: RI-S-S-R2
+ CH2=FH AL,
RI-~--CR2_C~_~_R2
(1)
Ar
This process explaines the decrease of sulphur contert in these products and i7; is an indication for a dicrease of the class of strlphiditg
of the polymers.
AS an admixture in the feed monomer in the benzene nucleous
nated product chlorine
in
the polymers
after
mixture there is a chloritoo-The presence of I,.%
precipitation
is an indication
466 that
it
part
takes
at the expense Since
B-Cl
in
the polycondensation
of chlorine
bond
is much
lower
then
Ar-Cl
uncmgedduringthe reaction. The study of the end groups of polymer of OUT investigation lymers
was
I,I%.m
differential
with
in the aliphatic
too.The thorough
content
sodium. disulphide
part
the
of the
latter
molecules
of end
investigation
compound.
remains was
an
object
-OHgroups in the po-
of all
fractions
using
IE spectxoscopy
method it was established that with content a decrease of the molecular weigh t of the products,the The methyl groups duly result of net&id. groups increases-Fig?2.
a l-
b / C
32m
‘6300
1700
13X 3, cnr'
Ffg.2.Dffferentfal IR spectB,obtaLned by equilibrate frequencies of -S&E? -CH(Ac)-Suuits in a fraction with molecular wei 4300 wi& some in fractionss with inolecular weight of I890 135O(b),970(c). from
the part%cipation
In our prevZou8 tor
work
of nolecWweigtrt
sma.ller degree
than
of dchlorethylbenzene it
was proved
that
producingzethyl
end
dchlorethglbenzene.Re~~les
of the latter groups,uuder certain conditions polystiphLde pomer can be cured,which makes usedas
in polgcondensation-
styrene
is also
groaps
a regula-
though
of the
to a
presence
the tested liquid it possible to be
ahernetizingxtaterial.
REFEKEXWES I E.Dachselt, T!hioplaste,VEB Deutscher Verlag fur GruudstOffindustrie,Leipzig,I97, 164~ 2 E.M-Fettes snd I.S.Iorzak, a nd,and Eng,Chem-, 42 (I960) 22Ii'2221. leva Izv.Akad.Hauk SSSR,Ser.Ri.m. (IJachr.Acad. 3 A.Ts.vrin Wiss.Od&&%~, 6 fI969) 1300-I308.